连接板钢-混凝土组合桥梁结构性能及现场监测

IF 2.6 3区 工程技术 Q2 ENGINEERING, CIVIL
Hang Su, Qingtian Su, Joan R. Casas, Huayong Wu, An Liu, Zhiquan Chen
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引用次数: 0

摘要

摘要介绍了七武大桥简支组合跨间采用连接板作用的工程实例。七武大桥60米跨度的主梁是目前国内架桥机架设的组合梁中最长、最重的。七武大桥由3个组合梁简支桥组成,在桥墩上通过连接板连接。该方案具有两个优点:(1)行驶条件平稳,通过消除伸缩缝提高耐久性;(2)简支桥的结构特性清晰。建立了有限元模型,对该半连续解的力学响应进行了模拟和预测。数值计算结果表明,消除连接板周围的剪切连接降低了应力水平,但也引起了应力突变。采用振动钢丝应变仪对七屋桥进行监测,跟踪其实际结构响应。初步监测数据和数值计算结果表明,所提出的施工方法和静力方案对60跨组合梁具有较大的安全裕度,是安全的。在桥梁的使用阶段,将获得进一步的试验结果,以验证所提出的连接板钢-混凝土组合桥的使用性能。关键词:桥梁架设机桥梁监测混凝土组合桥梁结构荷载链接板数值研究部分剪切连接钢振丝应变片披露声明所有作者声明未收到任何可能对所提交作品感兴趣的组织的资金或其他支持;也没有其他关系或活动可能影响提交的工作。第一作者感谢中国国家留学基金委[No. 6]对其的支持。202106260050)。第三作者感谢西班牙科学与创新部通过研究项目[PID2021-126405OB-C31]和AGAUR为合并研究小组提供的支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural performance and on-site monitoring of steel-concrete composite bridge with link slab
AbstractThe project case of Qiwu Bridge using link slab action between simply supported composite spans is introduced. The 60 m-span girder of Qiwu Bridge is the longest and heaviest among the composite girders erected by bridge-erecting machine in China. Qiwu Bridge consists of a series of 3 simply supported spans built with composite girders and connected at the pier supports by a link slab. This solution has both advantages of (1) smooth driving condition and enhancement of durability by removing expansion joints and (2) clear structural behavior as simply supported spans. A finite element model was established to simulate and predict the mechanical response of this semi-continuous solution. Numerical results showed that the removal of the shear connection around the link slab decreased the stress level but also caused a stress mutation. Qiwu Bridge was also monitored by vibrating wire strain gages to follow its actual structural response. From preliminary monitoring data and numerical results, it can be concluded that the proposed construction method and the static scheme is safe for the 60-span composite girder with a large safety margin. Further experimental results will be obtained during the service stage of the bridge to validate the in-service performance of the proposed steel-concrete composite bridge with link slab.Keywords: Bridge-erecting machinebridge monitoringconcrete composite bridgeconstruction loadlink slabnumerical studypartial shear connectionsteelvibrating wire strain gage Disclosure statementAll authors declare that no support, financial or otherwise, has been received from any organization that may have an interest in the submitted work; and there are no other relationships or activities that could appear to have influenced the submitted work.Additional informationFundingThe first author acknowledges the support provided by the China Scholarship Council [No. 202106260050]. The third author acknowledges the support provided by the Spanish Ministry of Science and Innovation through the research project [PID2021-126405OB-C31] and AGAUR for support to consolidated research groups.
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来源期刊
Structure and Infrastructure Engineering
Structure and Infrastructure Engineering 工程技术-工程:机械
CiteScore
9.50
自引率
8.10%
发文量
131
审稿时长
5.3 months
期刊介绍: Structure and Infrastructure Engineering - Maintenance, Management, Life-Cycle Design and Performance is an international Journal dedicated to recent advances in maintenance, management and life-cycle performance of a wide range of infrastructures, such as: buildings, bridges, dams, railways, underground constructions, offshore platforms, pipelines, naval vessels, ocean structures, nuclear power plants, airplanes and other types of structures including aerospace and automotive structures. The Journal presents research and developments on the most advanced technologies for analyzing, predicting and optimizing infrastructure performance. The main gaps to be filled are those between researchers and practitioners in maintenance, management and life-cycle performance of infrastructure systems, and those between professionals working on different types of infrastructures. To this end, the journal will provide a forum for a broad blend of scientific, technical and practical papers. The journal is endorsed by the International Association for Life-Cycle Civil Engineering ( IALCCE) and the International Association for Bridge Maintenance and Safety ( IABMAS).
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